DOCSLIB.ORG

DESIGN TIPS – TECHNICAL BULLETIN #52 ALLOWING for MOVEMENT of MASONRY MATERIALS [1 of 3]

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
DESIGN TIPS – TECHNICAL BULLETIN #52 ALLOWING for MOVEMENT of MASONRY MATERIALS [1 of 3] 1927 CAST STONE INSTITUTE® CAS T STONE INSTITUTE ® DESIGN TIPS – TECHNICAL BULLETIN #52 ALLOWING FOR MOVEMENT OF MASONRY MATERIALS [1 of 3] Building materials may experience dimensional changes and movement due to environmental conditions, such as temperature and moisture, or movement of adjacent building elements. If this movement is restrained, cracking may result. By accounting for movement in the wall design, cracking can be controlled. Movement joints are used to control and minimize cracking. There are two types of movement joints typically used in masonry construction; control joints and expansion joints. Control joints are placed in concrete masonry walls to limit cracks due to shrinkage. Control joints are unbonded vertical separations built into a concrete masonry wall to reduce restraint and permit longitudinal movement. They are located where cracking is likely to occur due to excessive tensile stress. An expansion joint is typically used in brick masonry walls to provide means for expansion and contraction movements produced by temperature changes, loadings or other forces. Expansion joints allow for both expansion and contraction and may be vertical or horizontal. CAUSES OF MOVEMENT Temperature Changes Most building materials experience reversible movements due to temperature change. Concrete masonry movement has been shown to be linearly proportional to temperature change. The coefficient of thermal movement normally used in design is 0.0000045 in./in./°F (0.0000081 mm/mm/°C). Actual values may range from 0.0000025 to 0.0000055 in./in./°F (0.0000045 to 0.0000099 mm/mm/°C) depending mainly on the type of aggregate used in the unit according to the National Concrete Masonry Association. These values are also appropriate for Cast Stone. The actual change in temperature is, of course, determined by geographical location, wall exposure, and color. Overall, the amount of movement due to temperature change in a cast stonewall is relatively small. For example, a wall constructed during 70°F (21°C) weather and subjected to a minimum temperature of 0°F (-18°C) results in a shortening of about 0.38 in. (9.7 mm) in a 100 foot (30.48 m) long wall using the 0.0000045in./in./°F (0.0000081 mm/mm/°C) coefficient. When thermal movement is restrained the internal force build up can be extremely high which will cause cracking and spalling the mortar bed and /or the cast stone. MOISTURE MOVEMENTS Many building materials tend to expand with an increase in moisture content and contract with a loss of water, including concrete and concrete masonry units. However, clay brick units experience irreversible expansion slowly over time upon exposure to water or humid air. DRYING SHRINKAGE Drying shrinkage is also due to a change in moisture content. However, drying shrinkage results from the natural moisture loss that results as concrete products are aged, rather than atmospheric moisture changes. Concrete products are composed of a matrix of aggregate particles coated by cement that bonds them together. The amount of cement content influences the amount of drying shrinkage that occurs. Although mortar is also a cementitious product and does experience drying shrinkage, unit shrinkage has been shown to be the predominant indicator of the overall wall shrinkage principally due to the fact that it represents the largest portion of the wall. Therefore, the shrinkage properties of the unit alone are typically used to establish design criteria for crack control. Maximum Linear Shrinkage Requirements for Cast Stone are specified in ASTM C 1364 Section 5.7. Linear Shrinkage shall not exceed 0.065% when tested in accordance with ASTM C 426. This Technical Bulletin is provided by the Cast Stone Institute®, and is intended for guidance only. 12 Specific details should be obtained from the manufacturer or supplier of the Cast Stone units. Bulletin updated October 6, 2010. © Cast Stone Institute Technical Manual Copyright 2011 1927 CAST STONE INSTITUTE® CAS T STONE INSTITUTE ® DESIGN TIPS – TECHNICAL BULLETIN #52 ALLOWING FOR MOVEMENT OF MASONRY MATERIALS [2 of 3] CAST STONE UNITS Because shrinkage is expressed as a percentage, individual Cast Stone elements will experience actual shrinkage depending upon their length. In the case of differential movements, hairline cracking is likely to occur when units are designed too long. Visible cracks exceeding 0.005 in. (1/200 in.) are regarded as deficiencies in high quality Cast Stone installations. This is a much higher standard than is found in architectural concrete work. This has structural implications, as the structural stress limit of Cast Stone must be less than the modulus of rupture for the material to avoid any occurrence of cracking. When considering non-structural pieces that do not carry any loads other than their own self-weight and transfer wind loads, limiting the length of the Cast Stone members can reduce the potential of cracking. A general rule of limiting the length of a Cast Stone trim element to no more than 15 times the least cross-sectional dimension should be observed in most applications. However, in some cases shorter lengths may be advised. For example, bearing conditions, high wind loads, large lengths of banding and unusual shapes are all factors that affect the structural stress and cracking potential, but vary from job to job. Temperature and moisture changes can cause changes in the size of Cast Stone elements. Increases in temperature can cause Cast Stone pieces to elongate. Decreases in temperature can have the opposite effect. Similarly, changes in the moisture content of the Cast Stone will affect its size. The magnitude of these physical properties depends in part upon the size of the member. The combined effects of thermal and moisture movements in Cast Stone elements and panels are often negligible. However, Cast Stone units 8 ft. or more in length in any direction may experience up to 1/8 in. or more in expansion or contraction due to combined thermal and moisture movements. CLAY PRODUCTS As discussed previously, clay brick units expand irreversibly over time upon exposure to water or humid air. A brick unit is smallest in size when it cools after coming from the kiln. The unit will increase in size due to moisture expansion from that time. Most of the expansion takes place quickly over the first few weeks, but expansion will continue at a much lower rate for several years. According to the Brick Industry Association, the moisture expansion behavior of brick depends primarily on the raw materials and secondarily on the firing temperatures. Brick made from the same raw materials that are fired at lower temperatures will expand more than those fired at higher temperatures. RECOMMENDATIONS Cast Stone units laid in mortar should follow the same recommendations for other masonry units. The location of control joints in walls with Cast Stone will depend on the materials used in the entire wall. When Cast Stone is used as an isolated accent in clay brick walls, recommendations for expansion joints for clay brick should be followed. For isolated accent pieces, no other special requirements apply. When Cast Stone banding is used in clay brick walls, the spacing of vertical expansion joints for clay brick and the spacing of control joints for concrete masonry should both be examined. The expansion joint spacing should be based on the most stringent requirement. In addition, the Brick Industry Association recommends providing a bond break between the clay brick and concrete or Cast Stone banding to accommodate the differential movement that will occur. In this case, flashing is often placed either directly above or below the banding course. Using a bond break both above and below the banding course is not recommended unless proper mortar embedment of the anchors in the veneer can be achieved. This Technical Bulletin is provided by the Cast Stone Institute®, and is intended for guidance only. 13 Specific details should be obtained from the manufacturer or supplier of the Cast Stone units. Bulletin updated October 6, 2010. © Cast Stone Institute Technical Manual Copyright 2011 1927 CAST STONE INSTITUTE® CAS T STONE INSTITUTE ® DESIGN TIPS – TECHNICAL BULLETIN #52 ALLOWING FOR MOVEMENT OF MASONRY MATERIALS [3 of 3] Generally, the recommendations for concrete masonry seem appropriate for Cast Stone. Hairline cracks along mortar bed joints are not unusual in concrete masonry as both the mortar and the masonry units experience shrinkage, nor do they affect the integrity of the wall if properly designed. They can be minimized by keeping lengths of Cast Stone units to within the limits dictated by principles of masonry construction. Large cracks can be avoided by incorporating control joints and other recommended details. For Cast Stone units with linear dry shrinkage values up to 0.065% ± • Place control joints or expansion joints in veneer walls at a maximum spacing of 25 ft. • Limit the aspect ratio (L/h) of the wall to 1.5 so that the length of the wall between control or expansion joints is no more than 1.5 times the height of the wall. • Refrain from installing units until they have been cured to Cast Stone Institute specifications. • Limit the maximum dimension of any Cast Stone piece to less than 8 ft. unless care is given to accommodate the possible expansion and contraction of the stone. This Technical Bulletin is provided by the Cast Stone Institute®, and is intended for guidance only. 14 Specific details should be obtained from the manufacturer or supplier of the Cast Stone units. Bulletin updated October 6, 2010. © Cast Stone Institute Technical Manual Copyright 2011 .
Load more

Recommended publications
  • Planters & Fountains
    NICHOLS BRO.S STONEWORKS TM Nichols Bros. Stoneworks manufactures a broad range of quality sandstone containers in both traditional and contemporary designs. We are constantly adding new sizes and styles to expand our line of planters that are equally at home in large commercial settings, municipal projects, office buildings, malls, resorts and hotels, or adding a touch of elegance to a family home. All of our sandstone planters are hand made in the Northwest, using centuries old dry casting techniques combined with modern technology and ingredients to reduce efflorescence and Planters & Fountains increase strength and durability. This allows us to offer a ten-year warranty on these products, even against freeze and thaw damage. Exquisite as they are in their style and design our planters are crafted to function beautifully as well. We cast them with drainage holes and provide instructions and spacers to allow proper drainage. A new addition to our product line is saucers, made by Nichols Bros. Stoneworks in sizes to accompany most of our planters. Because we manufacture them, we blend the material and colors to match the planter’s finish. Because we have our own mold shop we are able to customize many of our pieces, often “blocking out” a mold to shorten a planter or create an adaptation for a water feature. Many of our planters have been adapted for use as fountains, and this is easily accomplished with pre-production modifications and post production sealing and curing. All of our pieces are made of reconstituted stone and are quite heavy. We are glad to offer any advise for transportation and installation.
    [Show full text]
  • Roof Replacement and Associated Work at the Lowell High School 50 Father Morissette Blvd
    ROOF REPLACEMENT AND ASSOCIATED WORK AT THE LOWELL HIGH SCHOOL 50 FATHER MORISSETTE BLVD. LOWELL, MASSACHUSETTS August 3, 2018 Prepared For: Prepared By: City of Lowell Gale Associates, Inc. 375 Merrimack Street 15 Constitution Drive Lowell, MA 01851 Bedford, NH 03110 Gale JN 833360 ROOF REPLACEMENT AND ASSOCIATED WORK AT THE LOWELL HIGH SCHOOL 50 FATHER MORISSETTE BLVD. LOWELL, MASSACHUSETTS GALE JN 833360 TECHNICAL SPECIFICATIONS TABLE OF CONTENTS DIVISION 1 - GENERAL REQUIREMENTS DIVISION 1 Section 01 10 00 – Summary of Work Section 01 22 00 – Unit Prices Section 01 23 00 – Alternates Section 01 33 00 – Shop Drawings and Submittals Section 01 50 00 – Temporary Facilities Section 01 63 00 – Weather Protection and Materials Storage Section 01 77 00 - Project Close-Out TECHINICAL SPECIFICATIONS DIVISION 2 Section 02 41 19 – Selective Demolition DIVISION 3 Section 03 10 00 – Concrete Formwork (to be included with the Masonry Filed-Sub Bid) Section 03 45 00 – Cast Stone Replacement (to be included with the Masonry Filed-Sub Bid) Section 03 60 00 – Concrete Repairs (to be included with the Masonry Filed-Sub Bid) DIVISION 4 Section 04 00 01 – Masonry Filed Sub-Bid Requirements Section 04 50 00 – Masonry (Filed Sub-Bid Required) DIVISION 5 Section 05 40 00 – Cold Form Metal Framing Metal Roof Ladders – Section 05 51 33 DIVISION 6 Section 06 10 00 – Rough Carpentry DIVISION 7 Section 07 42 13 – Metal Wall Panels Section 07 53 00 – Elastomeric Roofing and Flashing DIVISION 8 Section 08 10 00 – Doors and Hardware Section 08 51 00 – Metal Windows Section 08 95 00 – Insulated Translucent Panel Skylight System (Alternate No.
    [Show full text]
  • Westtown-Thornbury Elementary School New Classroom Addition
    Westtown-Thornbury Elementary School New Classroom Addition West Chester Area School District 29 April 2021 Project Number: 2531 Specifications Volume 2 of 4 Divisions 02-14 Westtown-Thornbury Elementary School Addition For West Chester Area School District TABLE OF CONTENTS DIVISION 00 - PROCUREMENT REQUIREMENTS 00 0010 TABLE OF CONTENTS 00 1113 ADVERTISEMENT FOR BIDS 00 2113 INSTRUCTIONS TO BIDDERS 00 21BA A701-2018 INSTRUCTIONS TO BIDDERS 00 3100 AVAILABLE PROJECT INFORMATION 00 3100.1 FINAL GEOTECHNICAL REPORT 00 3100.2 STORMWATER PERC REPORT - HC 00 4100.01 BID FORM - STIPULATED SUM, GENERAL CONSTRUCTION 00 4100.02 BID FORM - STIPULATED SUM, MECHANICAL CONSTRUCTION 00 4100.03 BID FORM - STIPULATED SUM, PLUMBING CONSTRUCTION 00 4100.04 BID FORM - STIPULATED SUM, ELECTRICAL CONSTRUCTION 00 4313 BID SECURITY FORM 00 4513 BIDDER’S QUALIFICATION QUESTIONNAIRE 00 4519 NON-COLLUSIVE AFFIDAVIT 00 5200 AGREEMENT FORM 00 5200A AIA A101-2017 STANDARD FORM OF AGREEMENT BETWEEN OWNER AND CONTRACTOR 00 6113.13 PERFORMANCE BOND 00 6113.16 PAYMENT BOND 00 7200 GENERAL CONDITIONS 00 7200A AIA A201-2017 GENERAL CONDITIONS 00 7343 WAGE RATE REQUIREMENTS 00 7343.1 PREVAILING WAGE RATE FORMS 00 7343.2 PREVAILING WAGE INSTRUCTIONS 00 7343.3 PREVAILING WAGE PROJECT RATES DIVISION 01 - GENERAL REQUIREMENTS 01 1100 SUMMARY OF WORK 01 1200 MULTIPLE CONTRACT SUMMARY 01 2300 ALTERNATES 01 2600 CONTRACT MODIFICATION PROCEDURES 01 2900 PAYMENT PROCEDURES 01 3113 PROJECT COORDINATION 01 3119 PROJECT MEETINGS 01 3216 CONSTRUCTION PROGRESS SCHEDULE 01 3300 SUBMITTAL
    [Show full text]
  • Architectural Cast Stone
    Architectural Cast Stone TECHNICAL RESOURCES AT A GLANCE Specification ■ Standards ■ Technical Bulletins The purpose of this publication is to assist the architect and engineer by providing up to date information for the proper use, design and specification of Architectural Cast Stone. 1 2 █ █ MORTARS FOR CAST STONE INSTALLATION PRIMARY REFERENCE DOCUMENTS Selecting the appropriate type of mortar for setting cast stone is perhaps the most important factor in the performance of a masonry wall. The mortar must have sufficient strength, be durable, resist rain penetration ■ ASTM C1364-17 Standard Specification for Architectural Cast Stone as much as possible and yet be flexible enough to accommodate slight movement within the wall assembly. This is considered the master document for cast stone and can be purchased through the As noted in TMS 604-16, Standard Specification for Installation of Architectural Cast Stone, mortars used in the ASTM website at www.astm.org. This is the current version of the document which could be setting of cast stone should meet the requirements of ASTM C270, Type N mortars. updated by ASTM in the future. Therefore you will want to check on their website astm.org for any updated information. Included in this Bulletin is information on proper mortar mixing, wetting, head and bed joints, the proper specification of mortar/pointed joints and sealant joints, raking and pointing of joints, lug sills, selection of joint ■ TMS 404-504-604 types, and more. Architectural Cast Stone Standards developed through The Masonry Society TMS 404 Design, 504 Fabrication and 604 ► Reference Technical Bulletin #42. Installation in one standards publication.
    [Show full text]
  • Section 047200
    University of Houston Master Construction Specifications <%Insert Project Name%> SECTION 04 72 00 - CAST STONE MASONRY PART 1 - GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. B. The Contractor's attention is specifically directed, but not limited, to the following documents for additional requirements: 1. Uniform General Conditions for Construction Contracts, State of Texas, 20010 (UGC). 2. The University of Houston’s Supplemental General Conditions and Special Conditions for Construction. 1.2 SUMMARY A. Section Includes: 1. Cast stone trim including the following: a. Window sills. b. Lintels. c. Surrounds. d. Coping. e. Wall caps. f. Belt courses. g. Water tables. h. Quoins. i. Pilasters. j. Column covers. k. Medallions. 2. Cast stone steps. 3. Cast stone bollards. 4. Cast stone benches. 5. Cast stone curbing. B. Related Sections: 1. Section 03 45 00 "Precast Architectural Concrete." 2. Section 04 20 00 "Unit Masonry" for installing cast stone units in unit masonry. AE Project #: <%Project Number%> Cast Stone Masonry 04 72 00 - 1 Revision Date: 01/29/2018 University of Houston Master Construction Specifications <%Insert Project Name%> 1.3 ACTION SUBMITTALS A. Product Data: For each type of product indicated. 1. For cast stone units, include construction details, material descriptions, dimensions of individual components and profiles, and finishes. B. LEED Submittals (Projects authorized for LEED certification only): 1. Product Certificates for Credit MR 5: For products and materials required to comply with requirements for regional materials indicating location and distance from Project of material manufacturer and point of extraction, harvest, or recovery for each raw material.
    [Show full text]
  • Technetium and Iodine Getters to Improve Cast Stone Performance
    PNNL-23282 Rev 1 Prepared for the U.S. Department of Energy under Contract DE-AC05-76RL01830 Technetium and Iodine Getters to Improve Cast Stone Performance NP Qafoku RJ Serne JJ Neeway JH Westsik, Jr AR Lawter MM Valenta Snyder TG Levitskaia February 2015 PNNL-23282 Rev 1 Technetium and Iodine Getters to Improve Cast Stone Performance NP Qafoku RJ Serne JJ Neeway JH Westsik, Jr AR Lawter MM Valenta Snyder TG Levitskaia February 2015 Prepared for the U.S. Department of Energy under Contract DE-AC05-76RL01830 Pacific Northwest National Laboratory Richland, Washington 99352 Executive Summary Washington River Protection Solutions is collecting relevant available data on waste forms to provide the additional capacity for treating all of the low-activity waste (LAW) from the Hanford waste tanks. Four alternatives have been considered for supplemental immobilization of the LAW, but two, baseline vitrification and a low-temperature immobilization process based on a cementitious grout called Cast Stone, are the current front runners. In addition, Cast Stone has been selected as the preferred waste form for solidification of aqueous secondary liquid effluents from the Hanford Tank Waste Treatment and Immobilization Plant process condensates and LAW melter off-gas caustic scrubber effluents. Cast Stone is also being evaluated as a supplemental immobilization technology to provide the necessary LAW treatment capacity to complete the tank waste cleanup mission in a timely and cost-effective manner. The Tank Closure and Waste Management Environmental Impact Statement for the Hanford Site, Richland, Washington (TC&WM EIS) identifies technetium-99 (99Tc) and iodine-129 (129I) as radioactive tank waste components contributing the most to the environmental impacts associated with the cleanup of the Hanford Site.
    [Show full text]
  • Van Lare Hall Renovation 17.520 9/27/2019 Plan Review and Permit SECTION 02 22 30 DEMOLITION for REMODELING
    Alpena Community College Center for Health Sciences- Van Lare Hall Renovation 17.520 9/27/2019 Plan Review and Permit SECTION 02 22 30 DEMOLITION FOR REMODELING PART 1 GENERAL 1.1 SECTION INCLUDES A. Removal of designated building equipment and fixtures. B. Removal of designated construction. C. Disposal of materials. D. Identification of utilities. E. Refer to items schedule at end of section. 1.2 RELATED SECTIONS A. Summary: Work sequence and continued occupancy of the building. B. Execution Requirements: RE-installation of removed components. C. Division 1 - Close-Out Submittals: Project record documents. 1.3 SUBMITTALS A. See Section - Administrative Requirements for submittal procedures. B. Shop Drawings: indicate demolition; location and construction of temporary facilities. C. Project Record Documents: Accurately record actual location of capped utilities. 1.4 REGULATORY REQUIREMENTS A. Conform to applicable code for demolition work, dust control, projects requiring electrical disconnection and re-connection. B. Obtain required permits from authorities. C. Do not close or obstruct egress from any building exit or site exit. D. Do not disable or disrupt building fire or life safety systems without 3 days’ prior written notice to Owner. E. Conform to applicable regulatory procedures when hazardous or contaminated materials are discovered. 1.5 SCHEDULING A. Schedule work to coincide with new construction. B. Describe demolition removal procedures and schedule. 1.6 PROJECT CONDITIONS A. Contractor is to prepare a photo journal of all existing conditions in areas requiring work, and submit copies to the architect and owner prior to work starting. B. Conduct demolition to minimize interference with adjacent ad occupied building areas.
    [Show full text]
  • Control of Leakage Through Joints in Cast-Stone Masonry at the National Naval Medical Center
    NATIONAL BUREAU OF STANDARDS REPORT Mia CONTROL OF LEAKAGE THROUGH JOINTS IN CAST- STONE MASONRY AT THE NATIONAL NAVAL MEDICAL CENTER Progress Report No. 1 by A* Hockman, E. J. McCamley and E. W. Krussell To District Public Works Office Potomac River Naval Command Bureau of Yards & Docks Department of the Navy U. S. DEPARTMENT OF COMMERCE NATIONAL BUREAU OF STANDARDS U. S. DEPARTMENT OF COMMERCE Sinclair Weeks, Secretary NATIONAL BUREAU OF STANDARDS A. V. Astin, Director THE NATIONAL BUREAU OF STANDARDS The scope of activities of the National Bureau of Standards is suggested in the following listing of the divisions and sections engaged in technical work. In general, each section is engaged in specialized research, development, and engineering in the field indicated by its title. A brief description of the activities, and of the resultant reports and publications, appears on the inside of the back cover of this report. Electricity and Electronics. Resistance and Reactance. Electron Tubes. Electrical Instru- ments. Magnetic Measurements. Process Technology. Engineering Electronics. Electronic Instrumentation. Electrochemistry. Optics and Metrology. Photometry and Colorimetry. Optical Instruments. Photographic Technology. Length. Engineering Metrology. Heat and Power. Temperature Measurements. Thermodynamics. Cryogenic Physics. Engines and Lubrication. Engine Fuels. Atomic and Radiation Physics. Spectroscopy. Radiometry. Mass Spectrometry. Solid State Physics. Electron Physics. Atomic Physics. Nuclear Physics. Radioactivity. X-rays. Betatron. Nucleonic Instrumentation. Radiological Equipment. AEC Radiation Instruments. Chemistry. Organic Coatings. Surface Chemistry. Organic Chemistry. Analytical Chemistry. Inorganic Chemistry. Electrodeposition. Gas Chemistry. Physical Chemistry. Thermo- chemistry. Spectrochemistry. Pure Substances. Mechanics. Sound. Mechanical Instruments. Fluid Mechanics. Engineering Mechanics. Mass and Scale. Capacity, Density, and Fluid Meters.
    [Show full text]
  • Features and Decay of Cast Stone Elements in New York City Buildings in Comparison with Cast Stone in Milan
    12th International Congress on the Deterioration and Conservation of Stone Columbia University, New York, 2012 FEATURES AND DECAY OF CAST STONE ELEMENTS IN NEW YORK CITY BUILDINGS IN COMPARISON WITH CAST STONE IN MILAN Roberto Bugini1, Mariachiara Faliva2 and Luisa Folli3 1 CNR – ICVBC, Istituto per la Conservazione e la Valorizzazione dei Beni Culturali, via Roberto Cozzi 53, 20145 Milan (Italy) 2 Thornton Tomasetti, Inc., 51 Madison Avenue, New York, NY 10010 (USA) 3 Independent Researcher, viale Calabria 18/B, Lodi (Italy) Abstract Cast stone was a new construction material introduced in the second half of the 19th century for the production of architectural elements such as sills, window frames, cornices, ornamentations, statues; technological advances allowed use of this material for complicated shapes with considerable savings in costs compared to carved natural stone. Cast stone use followed similar patterns in North America and Europe. This paper compares and contrasts production and performance of this innovative material between two countries by analyzing material samples from historic structures in New York and Milan. Samples dating to the first decades of the 20th century were analyzed using petrographic methods. Samples were described in terms of aggregate composition, aggregate grain size and binder colour. The main decay observed was surface erosion of the cementing matrix. This decay can be attributed to exposure to the elements and pollution, but can be accelerated by the type of tooling used to finish the cast stone surface. Keywords: cast stone, artificial stone, New York City, Milan 1. Introduction Since the first half of the 19th century improvements in material science studies and technologies led to many attempts at finding new and better methods of construction.
    [Show full text]
  • CSI Technical Manual
    Technical Manual Revised as of March 2021 Developed by the Cast Stone Institute® TABLE OF CONTENTS TABLE OF CONTENTS INTRODUCTION Pages 2 - 4 Introduction STANDARD SPECIFICATION Pages 5 - 13 Standard Specifications 04 72 00 TECHNICAL BULLETINS Pages 14 - 62 #42 Mortars for Cast Stone Installation 14-15 #43 Sealant Joints 16 #44 Pointing of Joints 17 #47 Flashing, Weep Holes and Related Anchorage 18-25 #51 Use of Reinforcement 26-27 #52 Allowing for Movement of Masonry Materials 28-30 #55 Bow and Twist 31-34 #40 Freeze/Thaw Durability 35 #50 Air Entrainment Requirements 36-37 #35 Water Repellent Coatings 38 #32 Crazing 39-40 #33 Efflorescence 41 #49 Basic Comparison Between Various Masonry Materials 42 #54 Specification of Cast Stone Production Methods 43 #45 Degree of Customization 44-45 #36 Inspection and Acceptance 49-50 #37 Job Site Handling and Installation 48-49 #39 Cleaning 50-51 #38 Touch Up and Repair 52-53 #41 Cold Weather Setting Practices 54 #48 Hot Weather Setting Practices 55-56 #53 Cast Stone and LEED® v4 57-62 ANCHORS & INSERTS Pages 63 - 65 Standard Anchors 63-64 Standard Inserts 65 TYPICAL DETAILS & CONNECTIONS Pages 66 - 78 Balustrade 66 Column 67 Coping 68-70 Cornice 71-72 Fascia/Soffit 73-74 Header 75-76 Jamb 77 Sill 78 Tolerances 79 GLOSSARY Pages 80 - 83 Glossary of Terminology No part of this book may be reproduced in any form without the written permission of the Cast Stone Institute®, except as part of a construction document. This Technical Manual is provided by the Cast Stone Institute® and is intended for guidance only.
    [Show full text]
  • The Maintenance, Repair and Replacement of Historic Cast Stone
    / PRESERVATION 42 BRIEFS The Maintenance, Repair and Replacement of Historic Cast Stone Richard Pieper U.S. Department of the Interior National Park Service Cultural Resources Heritage Preservation Services An Imitative Building Material with Many Names The practice of using cheaper and more common materials were all used as binding agents. The differences in the on building exteriors in imitation of more expensive natural resulting products reflected the different stone aggregates, materials is by no means a new one. In the eighteenth cen­ binding agents, methods of manufacture and curing, and tury, sand impregnated paint was applied to wood to look systems of surface finishing that were used to produce like quarried stone. Stucco scored to simulate stone ashlar them. Versatile in representing both intricately carved could fool the eye as well. In the 19th century, cast iron ornament and plain blocks of wall ashlar, cast stone could was also often detailed to appear like stone. Another such be tooled with a variety of finishes. imitative building material was "cast stone" or, more pre­ cisely, precast concrete building units (Figs. 1,2 and 3). During a century and a half of use in the United States, cast stone has been given various names. While the term "artifi­ Cast stone was just one name given to various concrete cial stone" was commonly used in the 19th century, "con­ mixtures that employed molded shapes, decorative aggre­ crete stone," "cast stone," and "cut cast stone" replaced it in gates, and masonry pigments to simulate natural stone. the early 20th century. In addition, Coignet Stone, Frear The basic mixtures included water, sand, coarse aggregate, Stone, and Ransome Stone were all names of proprietary and cementing agents.
    [Show full text]
  • Batavia Public School District 101 5431-21 Rotolo Middle School – Entry Renovations
    Batavia Public School District 101 5431-21 Rotolo Middle School – Entry Renovations SECTION 000110 – TABLE OF CONTENTS SPECIFICATIONS FOR CONSTRUCTION Project: Rotolo Middle School – Entry Renovation 1501 S Raddant Road Batavia, Illinois 60510 Project Number: 5431-21 Owner: Board of Education Batavia Public School District 101 335 West Wilson Street, Batavia, Illinois 60510 Architect: Wight and Company 2500 North Frontage Road Darien, Illinois 60561 630-969-7000 Division Section Title SPECIFICATIONS GROUP FACILITY CONSTRUCTION SUBGROUP DIVISION 02 - EXISTING CONDITIONS 024119 SELECTIVE DEMOLITION DIVISION 03 - CONCRETE 033000 CAST-IN-PLACE CONCRETE 035416 HYDRAULIC CEMENT UNDERLAYMENT DIVISION 04 - MASONRY 042000 UNIT MASONRY 047200 CAST STONE MASONRY DIVISION 05 - METALS 051200 STRUCTURAL STEEL FRAMING 053100 STEEL DECK 054000 COLD-FORMED METAL FRAMING DIVISION 06 - WOOD, PLASTICS, AND COMPOSITES 061000 ROUGH CARPENTRY 061600 SHEATHING 062000 FINISH CARPENTRY 064000 ARCHITECTURAL WOODWORK DIVISION 07 - THERMAL AND MOISTURE PROTECTION 072100 THERMAL INSULATION 072500 WEATHER BARRIERS TABLE OF CONTENTS 000110 - 1 Batavia Public School District 101 5431-21 Rotolo Middle School – Entry Renovations 072726 FLUID-APPLIED MEMBRANE AIR BARRIERS 074219 METAL-PLATE WALL PANELS 074300 INSULATED SPANDREL PANEL ASSEMBLIES 074646 FIBER CEMENT SIDING 075323 EPDM MEMBRANE ROOFING 076200 SHEET METAL FLASHING AND TRIM 079200 JOINT SEALANTS DIVISION 08 - OPENINGS 081113 HOLLOW METAL DOORS AND FRAMES 081416 FLUSH WOOD DOORS 084113 ALUMINUM-FRAMED ENTRANCES
    [Show full text]